地中海黄肉猕猴桃果园根系水分吸收的时空动态及精准灌溉土壤水分阈值的确定

Spatio-temporal dynamics of root water uptake and identification of soil moisture thresholds for precision irrigation in a Mediterranean yellow-fleshed kiwifruit orchard.

作者信息

Calabritto Maria, Mininni Alba N, Di Biase Roberto, Pietrafesa Angela, Dichio Bartolomeo

机构信息

Department of European and Mediterranean Cultures, Environment, and Cultural Heritage (DiCEM), University of Basilicata, Matera, Italy.

出版信息

Front Plant Sci. 2024 Nov 1;15:1472093. doi: 10.3389/fpls.2024.1472093. eCollection 2024.

DOI:10.3389/fpls.2024.1472093

PMID:39554527

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11563807/

Abstract

INTRODUCTION

Actinidia is highly susceptible to water stress, both excess and shortage, and is therefore a model fruit crop for irrigation management, requiring precise water application. The present study was carried out in a mature kiwifruit orchard in southern Italy to investigate the physiology of a yellow-fleshed kiwifruit cultivar under non-limiting soil water conditions and in response to a progressive decrease in soil water content in a Mediterranean environment, with the aim of defining soil moisture thresholds to guide irrigation management.

METHODS

The progressive lowering in soil moisture was monitored using multi-profile probes, taking into account a 60 cm layer. Plant water status and physiological parameters were measured throughout the experiment and were significantly correlated with soil water status, suggesting that the level of soil water deficit affects plant physiological performance.

RESULTS

Reference minimum values of stem water potential reached during the day under non-limiting soil water conditions ranged from -0.4 to -0.7 MPa, with a value of -0.8 MPa identifying the threshold below which stomatal conductance began to decrease significantly. Soil moisture thresholds were defined according to the spatio-temporal dynamics of available water (AW) reduction, which decreased by approx. 10% and 1% before the onset of water stress and 16% and 2% at the onset of water stress, considered in the 0-30 cm and 30-60 cm soil layers, respectively, compared to the AW content of the whole soil profile.

DISCUSSION

Results confirmed that root uptake was mainly concentrated in the first 30 cm of soil depth, which should be properly managed by irrigation, as reduced soil water availability could easily lead to plant water stress. An integrated approach, combining plant measurements and soil water content monitoring, together with an assessment of root water uptake dynamics, is essential to identify soil water thresholds and develop precision irrigation, especially for high water-demanding crops and environments.

摘要

引言

猕猴桃对水分胁迫（无论是水分过多还是过少）高度敏感，因此是灌溉管理的典型水果作物，需要精确的水分供应。本研究在意大利南部一个成熟的猕猴桃果园进行，旨在调查一个黄肉猕猴桃品种在地中海环境下非限制性土壤水分条件下以及土壤含水量逐渐降低时的生理状况，目的是确定土壤水分阈值以指导灌溉管理。

方法

使用多剖面探头监测土壤水分的逐渐降低情况，考虑的土层深度为60厘米。在整个实验过程中测量了植物的水分状况和生理参数，这些参数与土壤水分状况显著相关，表明土壤水分亏缺程度会影响植物的生理表现。

结果

在非限制性土壤水分条件下，白天茎水势达到的参考最小值在-0.4至-0.7兆帕之间，当值为-0.8兆帕时确定了一个阈值，低于该阈值气孔导度开始显著下降。根据有效水分（AW）减少的时空动态定义了土壤水分阈值，与整个土壤剖面的AW含量相比，在水分胁迫开始前，0-30厘米和30-60厘米土层中的AW分别减少了约10%和1%，在水分胁迫开始时分别减少了16%和2%。

讨论

结果证实根系吸收主要集中在土壤深度的前30厘米，这部分应通过灌溉进行适当管理，因为土壤水分有效性降低很容易导致植物水分胁迫。综合方法，结合植物测量、土壤水分含量监测以及根系水分吸收动态评估，对于确定土壤水分阈值和发展精准灌溉至关重要，特别是对于需水量大的作物和环境。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9ee7/11563807/7aeab59629db/fpls-15-1472093-g001.jpg

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地中海黄肉猕猴桃果园根系水分吸收的时空动态及精准灌溉土壤水分阈值的确定

Spatio-temporal dynamics of root water uptake and identification of soil moisture thresholds for precision irrigation in a Mediterranean yellow-fleshed kiwifruit orchard.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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